A scuba diver was at a depth of 15 m below the surface when she saw something interesting about 10 m lower. She made the dissent in 10.1 seconds interpret the coaching to describe the rate of change in the divers death give your answer to the nearest hundredth
To interpret the rate of change in the diver's depth, we can use the formula:
Rate of change = Change in depth / Change in time
In this case, the change in depth is 10 m (since the diver saw something interesting 10 m lower) and the change in time is 10.1 seconds (since she made the descent in 10.1 seconds).
Rate of change = 10 m / 10.1 s ≈ 0.99 m/s
Therefore, the rate of change in the diver's depth is approximately 0.99 m/s.
To find the rate of change in the diver's depth, you need to divide the change in depth by the time taken to make the descent.
Change in depth = 10 m
Time taken = 10.1 seconds
To calculate the rate of change in the diver's depth, divide the change in depth by the time taken:
Rate of change = Change in depth / Time taken
Plugging in the values we have:
Rate of change = 10 m / 10.1 s
Calculating this:
Rate of change = 0.99 m/s
Therefore, the rate of change in the diver's depth is approximately 0.99 m/s.
To determine the rate of change in the diver's depth, we need to divide the change in depth by the time it took for the descent.
Given:
Initial depth: 15 m below the surface
Change in depth: 10 m lower
Time taken: 10.1 seconds
We can use the formula for average rate of change:
Average rate of change = Change in depth / Time taken
Plug in the values:
Average rate of change = (15 m - 10 m) / 10.1 s
Simplify:
Average rate of change = 5 m / 10.1 s
To get the answer to the nearest hundredth, we can divide 5 by 10.1:
Average rate of change ≈ 0.50 m/s
Therefore, the rate of change in the diver's depth is approximately 0.50 meters per second.